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"""Miscellaneous primitive ops."""
from __future__ import annotations
from mypyc.ir.ops import ERR_FALSE, ERR_MAGIC, ERR_NEVER
from mypyc.ir.rtypes import (
bit_rprimitive,
bool_rprimitive,
c_int_rprimitive,
c_pointer_rprimitive,
c_pyssize_t_rprimitive,
dict_rprimitive,
int_rprimitive,
object_pointer_rprimitive,
object_rprimitive,
pointer_rprimitive,
str_rprimitive,
void_rtype,
)
from mypyc.primitives.registry import (
ERR_NEG_INT,
custom_op,
custom_primitive_op,
function_op,
load_address_op,
)
# Get the 'bool' type object.
load_address_op(name="builtins.bool", type=object_rprimitive, src="PyBool_Type")
# Get the 'range' type object.
load_address_op(name="builtins.range", type=object_rprimitive, src="PyRange_Type")
# Get the boxed Python 'None' object
none_object_op = load_address_op(name="Py_None", type=object_rprimitive, src="_Py_NoneStruct")
# Get the boxed object '...'
ellipsis_op = load_address_op(name="...", type=object_rprimitive, src="_Py_EllipsisObject")
# Get the boxed NotImplemented object
not_implemented_op = load_address_op(
name="builtins.NotImplemented", type=object_rprimitive, src="_Py_NotImplementedStruct"
)
# Get the boxed StopAsyncIteration object
stop_async_iteration_op = load_address_op(
name="builtins.StopAsyncIteration", type=object_rprimitive, src="PyExc_StopAsyncIteration"
)
# id(obj)
function_op(
name="builtins.id",
arg_types=[object_rprimitive],
return_type=int_rprimitive,
c_function_name="CPyTagged_Id",
error_kind=ERR_NEVER,
)
# Return the result of obj.__await()__ or obj.__iter__() (if no __await__ exists)
coro_op = custom_op(
arg_types=[object_rprimitive],
return_type=object_rprimitive,
c_function_name="CPy_GetCoro",
error_kind=ERR_MAGIC,
)
# Do obj.send(value), or a next(obj) if second arg is None.
# (This behavior is to match the PEP 380 spec for yield from.)
# Like next_raw_op, don't swallow StopIteration,
# but also don't propagate an error.
# Can return NULL: see next_op.
send_op = custom_op(
arg_types=[object_rprimitive, object_rprimitive],
return_type=object_rprimitive,
c_function_name="CPyIter_Send",
error_kind=ERR_NEVER,
)
# This is sort of unfortunate but oh well: yield_from_except performs most of the
# error handling logic in `yield from` operations. It returns a bool and passes
# a value by address.
# If the bool is true, then a StopIteration was received and we should return.
# If the bool is false, then the value should be yielded.
# The normal case is probably that it signals an exception, which gets
# propagated.
# Op used for "yield from" error handling.
# See comment in CPy_YieldFromErrorHandle for more information.
yield_from_except_op = custom_op(
arg_types=[object_rprimitive, object_pointer_rprimitive],
return_type=bool_rprimitive,
c_function_name="CPy_YieldFromErrorHandle",
error_kind=ERR_MAGIC,
)
# Create method object from a callable object and self.
method_new_op = custom_op(
arg_types=[object_rprimitive, object_rprimitive],
return_type=object_rprimitive,
c_function_name="PyMethod_New",
error_kind=ERR_MAGIC,
)
# Check if the current exception is a StopIteration and return its value if so.
# Treats "no exception" as StopIteration with a None value.
# If it is a different exception, re-reraise it.
check_stop_op = custom_op(
arg_types=[],
return_type=object_rprimitive,
c_function_name="CPy_FetchStopIterationValue",
error_kind=ERR_MAGIC,
)
# Determine the most derived metaclass and check for metaclass conflicts.
# Arguments are (metaclass, bases).
py_calc_meta_op = custom_op(
arg_types=[object_rprimitive, object_rprimitive],
return_type=object_rprimitive,
c_function_name="CPy_CalculateMetaclass",
error_kind=ERR_MAGIC,
is_borrowed=True,
)
# Import a module (plain)
import_op = custom_op(
arg_types=[str_rprimitive],
return_type=object_rprimitive,
c_function_name="PyImport_Import",
error_kind=ERR_MAGIC,
)
# Table-driven import op.
import_many_op = custom_op(
arg_types=[
object_rprimitive,
c_pointer_rprimitive,
object_rprimitive,
object_rprimitive,
object_rprimitive,
c_pointer_rprimitive,
],
return_type=bit_rprimitive,
c_function_name="CPyImport_ImportMany",
error_kind=ERR_FALSE,
)
# From import helper op
import_from_many_op = custom_op(
arg_types=[object_rprimitive, object_rprimitive, object_rprimitive, object_rprimitive],
return_type=object_rprimitive,
c_function_name="CPyImport_ImportFromMany",
error_kind=ERR_MAGIC,
)
# Get the sys.modules dictionary
get_module_dict_op = custom_op(
arg_types=[],
return_type=dict_rprimitive,
c_function_name="PyImport_GetModuleDict",
error_kind=ERR_NEVER,
is_borrowed=True,
)
# isinstance(obj, cls)
slow_isinstance_op = function_op(
name="builtins.isinstance",
arg_types=[object_rprimitive, object_rprimitive],
return_type=c_int_rprimitive,
c_function_name="PyObject_IsInstance",
error_kind=ERR_NEG_INT,
truncated_type=bool_rprimitive,
)
# Faster isinstance(obj, cls) that only works with native classes and doesn't perform
# type checking of the type argument.
fast_isinstance_op = function_op(
"builtins.isinstance",
arg_types=[object_rprimitive, object_rprimitive],
return_type=bool_rprimitive,
c_function_name="CPy_TypeCheck",
error_kind=ERR_NEVER,
priority=0,
)
# bool(obj) with unboxed result
bool_op = function_op(
name="builtins.bool",
arg_types=[object_rprimitive],
return_type=c_int_rprimitive,
c_function_name="PyObject_IsTrue",
error_kind=ERR_NEG_INT,
truncated_type=bool_rprimitive,
)
# slice(start, stop, step)
new_slice_op = function_op(
name="builtins.slice",
arg_types=[object_rprimitive, object_rprimitive, object_rprimitive],
c_function_name="PySlice_New",
return_type=object_rprimitive,
error_kind=ERR_MAGIC,
)
# type(obj)
type_op = function_op(
name="builtins.type",
arg_types=[object_rprimitive],
c_function_name="PyObject_Type",
return_type=object_rprimitive,
error_kind=ERR_NEVER,
)
# Get 'builtins.type' (base class of all classes)
type_object_op = load_address_op(name="builtins.type", type=object_rprimitive, src="PyType_Type")
# Create a heap type based on a template non-heap type.
# See CPyType_FromTemplate for more docs.
pytype_from_template_op = custom_op(
arg_types=[object_rprimitive, object_rprimitive, str_rprimitive],
return_type=object_rprimitive,
c_function_name="CPyType_FromTemplate",
error_kind=ERR_MAGIC,
)
# Create a dataclass from an extension class. See
# CPyDataclass_SleightOfHand for more docs.
dataclass_sleight_of_hand = custom_op(
arg_types=[
object_rprimitive,
object_rprimitive,
dict_rprimitive,
dict_rprimitive,
str_rprimitive,
],
return_type=bit_rprimitive,
c_function_name="CPyDataclass_SleightOfHand",
error_kind=ERR_FALSE,
)
# Raise ValueError if length of first argument is not equal to the second argument.
# The first argument must be a list or a variable-length tuple.
check_unpack_count_op = custom_op(
arg_types=[object_rprimitive, c_pyssize_t_rprimitive],
return_type=c_int_rprimitive,
c_function_name="CPySequence_CheckUnpackCount",
error_kind=ERR_NEG_INT,
)
# Register an implementation for a singledispatch function
register_function = custom_op(
arg_types=[object_rprimitive, object_rprimitive, object_rprimitive],
return_type=object_rprimitive,
c_function_name="CPySingledispatch_RegisterFunction",
error_kind=ERR_MAGIC,
)
# Initialize a PyObject * item in a memory buffer (steal the value)
buf_init_item = custom_primitive_op(
name="buf_init_item",
arg_types=[pointer_rprimitive, c_pyssize_t_rprimitive, object_rprimitive],
return_type=void_rtype,
error_kind=ERR_NEVER,
steals=[False, False, True],
)
# Get length of PyVarObject instance (e.g. list or tuple)
var_object_size = custom_primitive_op(
name="var_object_size",
arg_types=[object_rprimitive],
return_type=c_pyssize_t_rprimitive,
error_kind=ERR_NEVER,
)
# Set the lazy value compute function of an TypeAliasType instance (Python 3.12+).
# This must only be used as part of initializing the object. Any existing value
# will be cleared.
set_type_alias_compute_function_op = custom_primitive_op(
name="set_type_alias_compute_function",
c_function_name="CPy_SetTypeAliasTypeComputeFunction",
# (alias object, value compute function)
arg_types=[object_rprimitive, object_rprimitive],
return_type=void_rtype,
error_kind=ERR_NEVER,
)
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